Effect of pressure on the process of methane oxidative dimerization. Part 2. The catalyzed reaction in conditions of suppression of the gas phase reaction

## Abstract Reactions of Cu~2~ with several small molecules have been studied in the gas phase, under thermalized conditions at room temperature, in a fast‐flow reactor. They fall into one of two categories. Cu~2~ does not react with O~2~, N~2~O, N~2~, H~2~, and CH~4~ at pressures up to 6 torr. Thi

The gas-phase kinetics of the reaction between Cuz and C2H4 have been studied as a function of pressure in a fast-flow reactor. The limiting low-pressure, third-order rate constant for the reaction was found to be (9.3 + I .4) x 1 Oew cm6 s-' in He. Modeling studies of this rate constant imply that

The equilibrium yields of three, high-pressure., gas-phase reactions were calculated using the virial equation of state, the modified equation of Redlich, and the Lewis fugacity rule. The results obtained do not differ very much from one another. However, when the calculations are performed for the

## Abstract For heterogeneously catalyzed multiphase reactions the formation of bubbles may have an influence on the effective reaction rate. This second of a series of two contributions deals with the Ni‐catalyzed hydrogenation of hexene, which was used as a model system for an exothermic gas/liqu

AM-The prevtous study of Hamer and Cormack[l]. on the Increased effectrveness of gas phase catalybc reactions under condmons of oscillating external pressure, IS extended to include VISCOUS flow effects For this purpose, the full, time dependent equations of VISCOUS flow, drffuslon and chemical reac